Radiated and conductive noise suppression of non-magnetic metal-coated non-woven fabric

2015 Asia-Pacific Symposium on Electromagnetic Compatibility (APEMC) Pub Date : 2015-05-26 DOI:10.1109/APEMC.2015.7175408

Tomoya Tanaka, Chie Okamura, Shinichi Okajima, Kazufumi Kato, S. Muroga, Y. Asazuma, M. Yamaguchi

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引用次数: 4

Abstract

A new noise suppressor made from metal-coated nonwoven fabrics is developed and studied by electromagnetic simulation and measurements. In the case of far fields, the shielding effectiveness to plane waves can be calculated using sheet resistance by regarding the non-woven fabric as a continuous metal sheet. Therefore, we show that the low wave impedance in the fine fiber layers generates a high shielding effectiveness. In the case of near fields, conductive noise suppression in a Microstrip line (MSL) with the non-woven fabric and with a continuous conductor is measured. Consequently, we clarify that there are some cases wherein the loss in the MSL while using the non-woven fabric is greater than that while using a continuous conductor in a specific frequency range. In this measurement, the loss from a noise suppression sheet (NSS) was 16% higher than that from a continuous film. From these results, we have successfully demonstrated the higher conductive noise suppression performance of the proposed thin, light, and flexible NSS.

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非磁性金属涂层无纺布的辐射和传导噪声抑制

研制了一种新型的金属包覆非织造布消声器，并对其进行了电磁仿真和测试研究。在远场情况下，对平面波的屏蔽效能可以通过将无纺布视为连续的金属片来计算。因此，我们表明，在细光纤层低波阻抗产生高屏蔽效能。在近场情况下，测量了带连续导体的无纺布微带线(MSL)的导电噪声抑制。因此，我们澄清，在某些情况下，使用无纺布时MSL中的损耗大于在特定频率范围内使用连续导体时的损耗。在这项测量中，噪声抑制片(NSS)的损耗比连续薄膜高16%。从这些结果中，我们成功地证明了所提出的薄、轻、柔性NSS具有更高的导电噪声抑制性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 Asia-Pacific Symposium on Electromagnetic Compatibility (APEMC)

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